FDA Radiology AI Devices

The SIS System is a software tool that uses advanced machine learning and image processing to help surgeons, neurologists, and radiologists visualize critical brain structures in 3D. It assists in planning neurological procedures such as Deep Brain Stimulation by creating detailed anatomical models from MRI images and localizing implanted leads on post-operative CT images, improving accuracy and surgical outcomes.

MR DWI/FLAIR Measurement V1.0 is a medical image processing software developed by Olea Medical that analyzes MRI brain images from diffusion-weighted imaging (DWI) and fluid-attenuated inversion recovery (FLAIR) sequences. It automatically computes diffusion maps and extracts relevant metrics to assist medical professionals in evaluating brain conditions. The software integrates with existing medical imaging platforms and helps clinicians by providing quantitative analysis to complement their diagnosis and treatment planning.

Ezra Flash is a software tool that uses AI (convolutional neural networks) to enhance brain MRI images by reducing noise. It supports 3-Tesla Siemens and GE MRI scanners for specific sequences, providing clearer images to assist radiologists in diagnosis without altering the original images.

CerebralGo Plus is a software package designed for trained medical professionals to view and process CT Angiography images of the head and neck. It helps visualize large vessels from adult CTA scans to support clinical decisions, although it is not intended for primary diagnostic use. The software integrates with standard DICOM-compliant imaging devices and hospital systems to facilitate image management and processing.

Annalise Enterprise CTB Triage Trauma is an AI-powered software that assists clinicians by automatically analyzing brain CT scans to identify signs of acute hemorrhages. It helps prioritize studies in the workflow to ensure patients with urgent findings are reviewed faster, improving triage and clinical efficiency. The system integrates with existing imaging management systems and does not provide standalone diagnostic decisions but supports clinicians in managing their workload.

Rapid NCCT Stroke is software that uses artificial intelligence to analyze non-contrast head CT scans and quickly notify clinicians about suspected areas of brain hemorrhage or large vessel blockage. This helps prioritize urgent cases and speeds up patient care, but it is intended to assist—not replace—clinical judgment and diagnosis.

Brainomix 360 e-ASPECTS is an AI-powered software that analyzes non-contrast CT brain scans to assist clinicians in detecting and characterizing ischemic brain tissue injuries, particularly in cases of acute stroke caused by MCA or ICA occlusions. It automatically provides an ASPECTS score, highlights affected brain regions, and visualizes voxel contributions to the score, helping clinicians make timely and more accurate assessments to guide stroke treatment.

The Swoop Portable MR Imaging System by Hyperfine is a bedside portable MRI device designed to produce images of the internal structure of the head. It uses magnetic resonance imaging with advanced image reconstruction algorithms that include deep learning to enhance image quality by reducing noise and blurring. This helps clinicians obtain diagnostic images even when full diagnostic examination is not practical, aiding diagnosis at the point of care in facilities such as emergency and critical care units.

MR Diffusion Perfusion Mismatch V1.0 by Olea Medical is an AI-powered software tool that automatically processes MR Diffusion and Perfusion imaging data to compute parametric maps, extract volume metrics, and calculate mismatch volumes. It assists radiologists and surgeons by providing quantitative imaging data that supports clinical decision-making. The software integrates with medical image platforms to streamline workflow without altering the original images and is intended to be used alongside other clinical information, not as a standalone diagnostic tool.

BrainInsight is an automated software that processes low-field MRI brain images to provide automatic labeling, spatial measurement, and volumetric quantification of brain structures. It produces annotated and segmented brain images with color overlays and detailed reports, helping clinicians assess brain anatomy and abnormalities efficiently, particularly using low-field MRIs.